An organic–inorganic hybrid superlattice with near perfect synergistic integration of organic and inorganic constituents was developed to produce properties vastly superior to those of either moiety alone. The complementary hybrid superlattice is composed of multiple quantum wells of 4-mercaptophenol organic monolayers and amorphous ZnO nanolayers. Within the superlattice, multichannel formation was demonstrated at the organic–inorganic interfaces to produce an excellent-performance field effect transistor exhibiting outstanding field-effect mobility with band-like transport and steep subthreshold swing. Furthermore, mutual stabilizations between organic monolayers and ZnO effectively reduced the performance degradation notorious in exclusively organic and ZnO transistors.

中文翻译：

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具有多通道和互稳定的互补混合半导体超晶格。

具有有机和无机成分近乎完美的协同整合作用的有机-无机杂化超晶格被开发出来，产生的性能大大优于任何一个单独的部分。互补杂化超晶格由4-巯基苯酚有机单层和非晶ZnO纳米层的多个量子阱组成。在超晶格内，在有机-无机界面处证实了多通道形成，从而产生了性能优异的场效应晶体管，该晶体管表现出出色的场效应迁移率，具有带状传输和陡峭的亚阈值摆幅。此外，有机单层和ZnO之间的相互稳定作用有效地减少了纯有机和ZnO晶体管中众所周知的性能下降。